Priscilla Kehoe

Enhanced acquisition of cocaine self-administration in adult rats with neonatal isolation stress experience.

That stress enhances the behavioral effects of cocaine is well-documented in adult rats, but whether early life stress endures into adulthood to affect responsivity to cocaine is less clear. We now report that neonatal isolation stress (1 h per day isolation on postnatal days 2-9) enhances acquisition of cocaine self-administration in adult rats. This effect was specific to cocaine and not due to learning or performance differences. Neither acquisition of operant responding for food nor locomotor activity differed between groups. These results have important implications for the role of early childhood stress in vulnerability to cocaine addiction.

Corticosterone release in response to repeated, short episodes of neonatal isolation : evidence of sensitization

Repeated isolation of neonatal rats produces persistent changes in physiology and behavior. In Experiment 1, we examined changes in plasma corticosterone (CORT) levels as a possible mechanism for the effects of isolation. Pups that were isolated from their mother and the nest for 1 h per day on postnatal days (PND) 2–9 were compared to control litters of pups that were either nonhandled or handled but not isolated. On PND 2, compared to nonhandled pups, handled pups had elevated CORT levels that returned to baseline levels within 30 to 60 min of return to the home cage. No significant elevation of CORT levels were found in handled pups on PND 9. The CORT levels of isolated pups were over twice those of nonhandled pups on PND 2 and four times those of nonhandled pups on PND 9. In Experiment 2, we investigated whether the increased CORT release in response to isolation on PND 9 was the result of the pups treatment on the previous six days as against an effect of maturation. Plasma CORT levels were measured in rat pups that were either isolated, handled or nonhandled on PNDs 2–8 during the conditions of isolation, handling and nonhandling on PND 9. There were no differences among the groups in basal plasma levels of CORT. Handling on PND 9 did not result in elevated CORT levels in any of the groups. All three groups showed a significant increase in plasma CORT levels after isolation on PND 9. However, the CORT response to isolation of pups previously isolated on PND 2–8 were significantly higher than pups that were either handled or nonhandled on PNDs 2–8. Thus, daily episodes of isolation potentiate the hypothalamic‐pituitary‐adrenal response to stress.

Neonatal isolation alters stress hormone and mesolimbic dopamine release in juvenile rats

Rat pups were individually isolated from the mother and nest for 1 h/day from postnatal days (PND) 2 to 9 and tested as juveniles (PND 26-30) compared to nonhandled (NH) controls. In response to 1 h of restraint stress, NH rats increased locomotor activity and dopamine (DA) levels, but neonatally isolated (ISO) rats did not. Both groups had increased plasma corticosterone levels in response to restraint, but corticosterone levels were higher in ISO than in NH. Brain allopregnanolone (3alpha,5alpha-THP) levels also increased in response to stress, but NH and ISO did not differ. Sex of the rats was not a factor for any of the measures except plasma corticosterone levels, where females had higher levels than males. These data indicate that the effects of neonatal isolation persist postweaning and that the effects are most evident in response to stress as opposed to under baseline conditions.

Neonatal isolation enhances acquisition of cocaine self-administration and food responding in female rats

We showed previously that neonatal isolation (ISO) enhances acquisition of cocaine self-administration in adult male rats without altering acquisition of food responding. Female rats show poorer performance in learning tasks and are differentially affected by stress compared to male rats. Thus, we investigated whether ISO alters acquisition of operant responding for cocaine and food in female rats with comparison to male rats. Litters were subjected to ISO or were non-handled (NH). Activity levels were assessed in adult rats. Then, rats were implanted with jugular catheters and allowed to self-administer cocaine under a fixed-ratio 1 (FR1) schedule of reinforcement using an escalating dose presentation procedure. Cocaine intake, discrimination of active versus inactive levers, and ineffective active lever responses were tabulated. Effects of non-contingent cocaine infusions (primes) and increasing FR on responding were then assessed. Other rats were allowed to lever press for food under an FR1 schedule (10 s time-out). ISO enhanced acquisition of operant responding for food and cocaine in female rats. The latter was demonstrated by better lever discrimination, emission of fewer ineffective responses, and superior performance in response to primes. Yet, NH females ingested more cocaine than ISO females during the initial acquisition phase. In male rats, ISO enhanced acquisition of cocaine self-administration but not food responding. Activity levels were unaffected by ISO or gender. These data confirm and extend our previous findings demonstrating the enduring effects of ISO on adult self-administration behavior and emphasize the importance of measuring behavioral patterns versus intake in acquisition studies.

Adult rats stressed as neonates show exaggerated behavioral responses to both pharmacological and environmental challenges

Adult rats that were isolated from the mother and nest for 1 hr per day from Postnatal Day 2 to 9 were studied. Controls consisted of handled littermates as well as separate litters that were never handled. As adults, animals were given either a pharmacological challenge (1.0 or 2.0 mg/kg amphetamine) or an environmental challenge (restraint). Previously isolated animals demonstrated increased activity compared to controls at both drug doses. Similarly, isolated animals manifested exaggerated inhibition of activity after restraint. Previously isolated animals usually did not show differences compared to controls under baseline conditions (saline injection or no restraint). The neuroplastic changes that result from the neonatal experience are long lasting and appear when the system is challenged.

Neonatal stress alters LTP in freely moving male and female adult rats

We previously reported that neonatal isolation stress significantly changes measures of hippocampal long‐term potentiation (LTP) in male and female juvenile rats, i.e., at 30 days of age. The changes in dentate granule population measures, i.e., excitatory postsynaptic potential (EPSP) and population spike amplitude (PSA), evoked by tetanization of the medial perforant pathway, indicated that juvenile rats exposed to neonatal isolation exhibit different enhancement profiles with respect to both the magnitude and duration of LTP in a sex‐specific manner. Isolated males showed a significantly greater enhancement of LTP, while female “isolates” showed significantly longer LTP duration when compared to all other groups. The present study was designed to determine whether the effects of the neonatal isolation stress paradigm endures into adulthood. Rats isolated from their mothers for 1 h per day during postnatal days 2–9 were surgically prepared at 70–90 days of age, with stimulating and recording electrodes placed in the medial perforant pathway and the hippocampal dentate gyrus, respectively. Prior to tetanization, no significant effect of sex or treatment was obtained for baseline measures of EPSP slope or PSA. In order to rule out baseline differences in hippocampal cell excitability in female adult rats, we measured the response of dentate granule cells for one estrus cycle and found no pretetanization enhancement in the evoked response in either controls or previously stressed rats. Following tetanization, there was a significant treatment and sex effect. During the induction of LTP, PSA values were significantly enhanced in both isolated males and females and had significantly longer LTP duration when compared to the unhandled control group. Additionally, we observed that females took longer to reach baseline levels than males. Taken together, these results indicate that repeated infant isolation stress enhances LTP induction and duration in both males and females. These results indicate that infant stress alters hippocampal neuroplasticity in such a way that its effect endures into adulthood. Hippocampus 1999;9:651–658.

Effects of prenatal protein malnutrition and neonatal stress on CNS responsiveness

Maturation of the nervous system and consequent behavior depends in part on prenatal nutritional factors and postnatal environmental stimulation. In particular, the hypothalamus and the hippocampus are two important CNS areas that are vulnerable to such pre- and postnatal manipulations. Therefore, the present study was undertaken to explore the effects of both prenatal protein malnutrition and neonatal isolation stress on hypothalamic and hippocampal functioning in infant rats. Specifically, we assessed the levels of plasma corticosterone, as well as dopamine, serotonin and their metabolites in both the hypothalamus and hippocampus in rat pups that had been prenatally malnourished (6% casein diet) and isolated from nest, dam, and siblings for 1 h daily during postnatal days (PND) 2 through 8. We found that on PND 9 malnourished pups weighed less, had smaller hypothalami and a suppressed corticosterone response to acute and chronic isolation stress. However, their dopamine metabolism in the hypothalamus was increased following acute isolation on PND 9 as seen in isolated controls. Prenatal protein malnutrition also resulted in a significant elevation in serotonin in both brain areas, increased 5HIAA in the hypothalamus, and decreased dopamine in the hippocampus. Repeated isolation caused a reduction in 5HIAA in both brain parts, but only in control pups. These pre- and postnatal challenges may each cause a specific pattern of modifications in the CNS and, in combination, may be additive, particularly in the hypothalamic-pituitary-adrenal (HPA) stress response and the serotonergic functioning in both the hypothalamus and hippocampus, a finding with important clinical implications.

Repeated isolation stress in the neonatal rat : Relation to brain dopamine systems in the 10-day-old rat

Isolation of the rat pup from the nest and dam for one hour per day from PN 2-9 is a useful paradigm for producing stress in the neonate. These previously isolated rats respond to an amphetamine challenge with alterations in activity at the juvenile stage or as adults. Furthermore, when dopamine release is measured in the nucleus accumbens, juveniles release 3 times more dopamine after amphetamine than do controls. This study describes changes in behavior and brain dopamine systems at PN 10. Experiment 1 determined an appropriate amphetamine dose that could be used for behavioral activation at PN 10. Experiment 2 produced significant evidence of enhanced behavioral activation after the isolation paradigm and indicated that brain regions innervated by the mesolimbic dopamine system, septum, and hypothalamus display increased dopamine turnover and that the nigrostriatal pathway is less active. Likewise, in Experiment 3, in vivo microdialysis of the nucleus accumbens indicated that previously isolated pups respond to an amphetamine challenge with a several-fold increase in dopamine release over a 4-hour session.

Repeated isolation in the neonatal rat produces alterations in behavior and ventral striatal dopamine release in the juvenile after amphetamine challenge

Rat pups were isolated from the mother and nest for 1 hr per day from Postnatal Day (PN) 2 to 9 At PN 27, rats were tested for behavioral responsiveness to 2.0 or 7.5 mg/kg amphetamine. Only isolated rats receiving the 7.5 mg/kg dose displayed increased activity scores, compared with nonisolated and nonhandled controls. Their increased activity is attributed to a slower latency to enter into stereotypy. In a second experiment, similarly treated groups were challenged by the 7.5 mg/kg dose during a session in which a microdialysis probe implanted in the ventral striatum was being perfused. The challenge drug elicited a much greater increase in dialysate dopamine in isolated vs. nonisolated groups. Results are discussed with regard to dissociation between sensitized and subsensitized responses.

Chronic neonatal isolation stress enhances cocaine-induced increases in ventral striatal dopamine levels in rat pups.

Cocaine-induced increases in ventral striatal dopamine levels are enhanced in adult rats previously exposed to chronic stress. In neonatal rats, isolation from dam, nest, and siblings is stressful as evidenced by elevated corticosterone levels, an effect that increases with chronic isolation. Whether chronic neonatal isolation cross-sensitizes to cocaine leading to greater increases in ventral striatal dopamine levels was assessed in this study. Litters were assigned to isolate or non-handled conditions. After culling on postnatal Day 1 (PN1), pups in the neonatal isolation condition were isolated individually for 1 h/day on PN days 2-9 while pups in the non-handled condition were left undisturbed. On PN10, pups were implanted with probes aimed at the ventral striatum. Baseline measures of dopamine and its metabolite, DOPAC, were obtained. Separate groups of male and female pups were then administered 0, 2.5, 5.0, or 10 mg/kg cocaine and samples were collected for 2-h. Isolate pups showed greater cocaine-induced increases in ventral striatal dopamine levels than non-handled pups. However, DOPAC levels did not differ by isolation condition or gender. Neonatal isolation-induced increases in the effects of cocaine on ventral striatal dopamine levels are consistent with our previous study using amphetamine in 10-day-old pups and show that chronic stress sensitizes the dopamine response to psychostimulants in infant rats.